Samwon Tech Temp 2000 M, 3ch, 5ch, 7ch Instruction Manual

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Page 1

Instruction Manual

Page 2

SAMWONTECH

※ This edition is common manual for TEMP2500M, TEMP2700M.

Contents

Manipulation

1. Safety instruction (Cautions)

1.1 Checking the product····················································································· 3

1.2 Exterior and how to install··············································································· 6

1.3 Wiring ····································································································· 15

1.4 Display function and name·············································································· 24

1.5 Control part LED ···················································································· 25

2. Manipulation and setting

2.1 Basic operation flow chart··············································································· 26

2.2 Setting button operation ················································································· 27

2.3 How to set the parameters…… ········································································· 28

3. Setting operation state

3.1 Main screen································································································· 31

3.2 Stationary (FIX) operation················································································ 32

3.3 Program operation ·················································································· 37

3.4 Auto tuning screen ·················································································· 42

3.5 Sub channel auto tuning ················································································· 47

3.6 Auto tuning and tuning point············································································· 48

4. Operation related motion setting

4.1 Operation method setting················································································ 49

4.2 FUZZY operation ···················································································· 51

4.3 Setting data change ratio (SLOPE) operation ························································ 52

5. Program setting

5.1 Program pattern setting ·················································································· 54

5.2 Pattern repetition setting ················································································· 61

5.3 File editing ································································································ 62

5.4 Time signal operation ···················································································· 64

5.5 Standby operation ························································································ 67

5.6 Experiment name setting ················································································ 69

6. Graph display and saving setting

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6.1 Pattern graph display ····················································································· 70

6.2 Measured data (PV) graph view········································································· 72

6.3 Setting the measure data (PV) graph saving ························································· 74

6.4 SD memory storage setting ············································································· 76

7. Screen display setting

7.1 Screen display setting····················································································· 77

7.2 DI error occurrence history view········································································ 79

7.3 Heater short state·························································································· 81

8. Time setting ····································································································· 82

9. Communication error·························································································· 84

System setting

10. System setting

10.1 Main screen ································································································ 85

10.2 System parameter setting procedure ····························································· 87

11. Sensor input

11.1 Sensor input setting ······················································································ 88

11.2 Sectional input calibration setting ····································································· 94

12. Control & Transmitting output

12.1 Control output setting ···················································································· 96

12.2 Transmission output setting············································································· 103

13. DO relay output

13.1 Relay No. and parameter setting ····································································· 105

13.2 Other signal relay setting ············································································· 111

13.3 UP, SOAK, DOWN signal operation ···································································· 115

14. Communication

14.1 Communication environment setting (RS232C / RS485)··········································· 116

14.2 Communication environment setting (Ethernet)······················································ 118

15. Inner signal

15.1 Inner signal setting························································································ 119

15.2 Inner signal operation ···················································································· 121

16. ON/OFF signal

16.1 ON/OFF signal setting ················································································· 122

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16.2 ON/OFF signal operation ················································································ 124

17. Alarming signal

17.1 Alarming signal setting ··················································································· 125

17.2 Alarming signal operation ··············································································· 130

17.3 Heater short alarming signal ·········································································· 131

18. PID Group

18.1 PID application scope setting··········································································· 132

18.2 PID group setting ························································································· 135

19. DI function and operation

19.1 DI operation setting ······················································································ 137

19.2 DI error name ··························································································· 142

19.3 DI error creation screen ················································································· 145

20. User screen

20.1 User screen setting ···················································································· 146

20.2 User screen operation ··················································································· 149

20.3 BMP file making method·················································································· 150

21. System initial setting

21.1 Basic screen display setting ············································································ 151

21.2 State display lamp setting ··············································································· 153

21.3 Initial screen operation ·················································································· 154

22. Sub channel setting

22.1 Sub channel system parameter setting screen ······················································ 155

22.2 System parameter setting procedure ····························································· 156

22.3 Sub channel sensor input setting ······································································ 157

22.4 Sub channel control output setting ···································································· 162

22.5 Sub channel relay No. setting ·········································································· 164

22.6 Sub channel communication environment setting ·················································· 166

22.7 Sub channel alarming signal setting ··································································· 168

22.8 Sub channel PID group setting ········································································· 173

22.9 Sub channel system initialization setting ····························································· 175

* Engineering Units

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1. Safety instruction (Cautions)

Thank you for your choice our multi channel programmable controller (TEMP2000M). This installation manual describes how to install this product.

Safety symbol mark

(A) “Handle with care” or “Caution” shall be expressed. In case of violation of this point, it may

(B) “Ground terminal” shall be displayed.

(C)“Supplement explanation” shall be displayed.

(D) “References” shall be displayed.

cause the death, heavy injury or severe damage on the device.

(1) Product: It is displayed in case that there are points to be recognized certainly to

protect the human body and device.

(2) Installation manual : The cautions are described in case of the threatening to the

☞

Make the ground with the ground surface in case of product installation and manipulation.

The information to supplement the explanation is described.

It describes the points to be referred and the reference page.

life and body due to the electric shock and etc.

음 Cautions in this instruction manual 음

(A) AUTO TUNING shall be delivered for the final user to keep always and it shall be kept in the

place within the reach anytime.

(B) Use this product after full understanding on the auto tuning. (C) AUTO TUNING is the description on the details of function of the product and the other points

besides the auto tuning shall not be warranted.

(D) A part of whole part of auto tuning shall not be edited or copied for use. (E) The description in auto tuning may be changed randomly without pre-notice or warning. (F) Even though this auto tuning is made with full effort, it will be appreciated if you inform to the

point of purchase (Dealer shop) in case of finding the deficiencies, mistake and omission in the description.

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음Safety and cautions in the modification(Change)음 음on the product (Change) on the product음

(A) Use this product after full understanding on the cautions (Instructions) for the safety in auto

tuning for the protection and safety of the product of the system to be connected for use.

(B) Our company is not responsible for the use and handling and every loss incurred due to the

negligence without following auto tuning.

this product or the system connected this product shall be installed at the outside of the product.

The modification (Change) or addition to this product is prohibited.

(D) Do not disassemble, repair or modify randomly. It may cause the electric shock, fire and

mal operation.

(E) Please contact the sales department of our company in case of changing the part or

consumables of this product.

(F) Do not allow the inflow of the moisture to this product. It may cause a failure. (G) Do not apply strong impact on this product. It may cause the damage on the product or

mal operation.

음For exemption of their product음

(A) Our company is not responsible for any warrant or liabilities on the product except the

contents defined in quality assurance condition of our company.

(B) Our company is not responsible for any direct or indirect damage to the user or third party

due to the unexpected defect and natural disaster in use of this product.

FFor the quality insurance condition of this product

(A) The warrant period of the product shall be 1 year from the date of purchasing and it shall be

repaired in free of charge in case of the failure created from the normal use defined in auto tuning.

(B) The repair by the failure created after the warranty period of the product shall be processed in

real cost (Payment) according to the defined condition by our company.

warranty period.

(1) Defect by the mistake and fault of the user. (Ex : Initialization due to the loss of the

password and etc) (2) Failure by the natural disaster(Ex : Fire and flood and etc) (3) Failure by the movement after the product installation (4) Failure by the random disassembly, change or damaged on the product (5) Failure by the abnormal electric source such as the instable electric power. (6) Others

(D) Please contact the point of purchasing and sales department of our company in case of

necessity for after sales service due to the failure.

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1.1 Checking the product

▶ Check whether there is no damage on the product by inspecting on the exterior when the product is

accepted. In addition, check the following points.

1.1.1 Check the specification of the ordered product

▶ Check whether the accepted product is same with the ordered specification.

How to check: Check the model name specification code on the right of packing box and label on the left of product case.

⊙ TEMP2□00M - 0□/□/□/□/□ ①

No. Name Symbol Description

① Model

② I/O Board

③ SD card option

④

⑤ HBA option

⑥

Communication

option

TEMP2000M Sub channel

② ③ ④ ⑤ ⑥

5 Screen display part 5.7 inch 7 Screen display part 7.5 inch

0 I/O1 (Relay 12point / Basic) 1 I/O1, 2 (Relay 32point)

N None

SD SD Card

RS RS232C, RS485 (Basic) CE Ethernet

N None A 50A B 100A

C 12A

CH2 2 Channel CH4 4 Channel CH6 6 Channel

⊙ Sub channel -□/□

① ②

No. Name Symbol Description

N None

①

②

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HBA option

(INPUT 1)

HBA option

(INPUT 2)

A 50A

B 100A

C 12A

N None

A 50A

B 100A

C 12A

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1.1.2 Check the packing contents

▶ Check whether the following contents are contained.

TEMP2000M_SERIES

Main body – display part

SD CARD

(In case of

option selection)

I/O2 BOARD

(In case of

option selection)

SMPS

(Product for independent

selling)

TEMP2000M_SERIES

CONTROL PART-Main

Fixing mount End bar

TEMP2000M_SERIES

CONTROL PART-Sub

Cable (2m)

PC⇔control

part

I/O1 BOARD

Cable (1m)

CONTROL

PART⇔I/O1

Cable (3m)

DISPLAY PART

⇔control part

Manual

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1.1.3 Processing of the damaged product

▶ Contact to the point of product purchase or sales department of our company when the product is

damaged at the external inspection on the product as in the above or omission of the parts.

Exchange period for the parts with life span

▶ Check the corresponding exchange period for the following life span parts and exchange

before passing the exchange period when it is necessary.

■ RELAY JQ1P-DC18V, ALD18V equivalent : Under 300,000 times of ON/OFF

■ BATTERY CR2030 3V equivalent : Under 200,000 hours

(A) Contact to the point of product purchase or sales department of our comp for the exchange of

the life span parts.

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1.2 Exterior and how to install

1.2.1 Installation location and environment

ACautions in installation location and environment u

(A) Handle after switching on at the state of installing this product on the panel because there is

a risk of electric shocking. (Cautions for electric shocking)

(B) Do not install this product at the following location and environment.

■ A place where a person can touch the terminal point without recognition

■ A place exposed directly to the mechanical vibrato or impact

■ A place exposed to the corrosive gas or combustible gas

■ A place with big temperature change

■ A place with excessive high (Over 50℃) or low (Under 10℃) temperature

■ A place exposed directly to the direct sunlight

■ A place influenced by electromagnetic wave

■ A place with high humidity (A place over 85% of ambient humidity)

■ A place where the flammable stuffs are placed at the surrounding.

■ A place with many dust or salts

■ A place exposed to the ultra violet light

☞ Even though the case of this product is made of non-flammable material such as

ABS/PC, do no install at the place where the flammable stuffs exist.

음Cautions in installaiton음

(A) Do not place the device or wire which become the cause of the noise near to this product (B) Use the product within 10~50℃, 20~90% RH(The dew shall not be made).

Especially, do not place the excessive heating device at near

(C) Do not install the product in declining. (D) Keep the product within -5~70℃, 5~95%RH (The dew shall not be made). (E) Especially, use after full warming up when it is used in under 10℃. (F) Make wiring after switching off of every device during the wiring (Cautions in electric shock) (G) This product operates in 24V DC, 22VAmax without special manipulation.

There is a risk of the electric shock and fire when it is used in the abnormal electric source

(H) Do not work with wet hand. There is a risk of the electric shock. (I) Keep the basic cautions to reduce the fire, electric shock and risk of injury in use. (J) Install and use according to the instructions on the installation manual. (K) Refer to the installation instruction for the necessary information for the ground. However,

do not ground to the water pipe, gas pipe, phone line and lightening rod. There is a risk of explosion and ignition.

(L) Do not switch on before connection of the devices of the product. It may cause the failure. (M) Do not close the ventilation hole on the product. It may cause the failure. (N) Do not decline the I/O BOARD and install inside the hygrostat. Use after fixing on the holes

on the board with bolts and nuts.

(O) The level of excessive voltage is category Ⅱ and the use environment is DEGREEⅡ.

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1.2.2 External dimension (Unit: mm)

1.2.2.1 External dimension of display part for each model

Model

Name

TEMP2500M 144 144 6.5 33.5 136.5 136.5 156 75

A B C D E F G H

Unit : mm

TEMP2700M 203 180 6.8 38.2 172.5 195.5 192 75

1.2.2.2 External dimension of control part

964.2

100.8

Main unit Sub unit

25.5

964.2

100.8

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1.2.2.3 I/O1 BOARD external dimension

1.2.2.4 I/O2 BOARD external dimension

170 180

124 132

115

104.6

34.7

1.2.3 Panel cutting dimension

▶ In case of general attaching

※ Panel cutting dimension for each model

Unit: mm

MODEL A B C

TEMP2500M 137.5 137.5 250

TEMP2700M 196 173 308.5

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of display

doesn

matter.

1.2.4 How to attach mount

1.2.4.1 How to install display part ▶ TEMP2000M DISPLAY UNIT panel installation method

Insert

DISPL

Panel (Refer to the

anel cutting dimension)

① Cut the panel to be installed. [Refer to 1.2.3 panel cutting dimension] ② Insert the product on the installation hole from the rear side of the main body as shown in the above

diagram

③ Fix the main body using the fixing mount on the upper and lower power of the main body (It is same

with the picture) (User the screwdriver)

▶ In case of installing with VESA mount

☞ VESA dimension (75*75) is same in every product.

Fixing

The installation of fixing mount on the left, right, upper and lower part

’t

Phillips screwdriver

Panel thickness:

VESA dimension (75*75)

※ Cautions

Apply M4*4L ~ 6L bolt in

fixing on vesa hole

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1.2.4.2 How to install control part

▶ In case of installing DIN rail

1) DIN rail preparation

7.3

2) Insert the ⓐ part on the main unit and sub unit into the rail first as shown in the picture and push ⓑ part and the installation shall be made the latch to lock into the rail as shown in the picture.

Latch

ⓐ

ⓑ Push

3) Assemble the installed main unit and sub unit to the direction of arrow as shown in the following picture.

BACK COVER

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4) Both ends of unit is fixed with end bar when the main and sub units are installed not be moved.

How to assemble the end bar

End bar

Firstly insert the end bar on

the upper side of rail

Push up the end bar to

arrow direction

Fasten the screw.

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▶ In case of installing on the wall directly,

1) Disassemble the back cover of main and sub unit as follows.

Main unit

Back cover

② Pulling

▪ Disassemble the back cover by pulling part ②after pressing part ① of main unit. ▪ Check the space to install in consideration of external dimension of screw hole and back cover.

2) Check the space to install in consideration of external dimension of screw hole and back cover.

Main unit back cover

① pushing

Sub unit back cover

Sub unit

Back cover

② Pulling

Sub unit

① Pushing

25.5

100.2

76.6

25.5

76.6

100.2

24.87

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3) Assemble back cover and fix on the wall with screw.

M3X12

Fastening torque

Main unit

BACK COVER

Sub unit

BACK COVER

recommended for screw

0.3 N∙m(3㎏f∙㎝)

▪ Be cautious for the foreign material not to be put into the connector in case of fixing the back

cover on the wall. (Possibility of communication connection fault)

▪ Be cautious for the exposed board surface not to be scratched or damaged.

4) Insert the upper part of the main and sub body on the main/sub back cover and assemble for hook to be locked fully by pushing the lower part.

Main unit

Main BACK COVER ASSY

PUSH

Main body

Sub unit

Sub BACK COVER ASSY

PUSH

Sub body

▪ Check whether the hook is fully assembly after assembling the product main body to the back

cover assembly.

- There is a big possibility of communication/function disorder when it is incompletely assembled.

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5) Fix by inserting the fixing unit for each unit not to be separated as shown in the figure.

Fixing unit

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1.3 Wiring

Cautions

1.3.1 How to wire

1.3.1.1 Recommended specification for electric power cable

▶ Vinyl insulated cable KSC 3304 0.9~2.0 ㎟

1.3.1.2 Recommended specification for terminal

▶ Use the insulated sleeve attached pressured terminal which is proper for M3 screw as shown in the

figure.

▶ Switch off the main power of every supplied gauge and wire after checking with the tester

whether the electric power on the wiring cable is on.

▶ Do not contact with the terminal absolutely because there is a possibility of electricity after

switching on.

▶ Make wire connection after switching off on the wire certainly.

Over 3.0mm Over Φ3.0mm

1.3.1.3 Measure for the noise

▶ Noise source

(A) Relay and contact point (B) Solenoid coil and solenoid valve (C) Electric power line (D) Induction load (E) Inventor (F) Commutator in motor (G) Phase angle control SCR (H) Wireless communication device (I) Welding machine (J) High pressure ignition device and etc (K)

▶ Measure for the noise

Make the wiring in cautious about the following points for the noise creation source.

(A) Make wiring with leaving gap between electric circuit and ground circuit for input circuit. (B) Use the shield wire for the noise from the electrostatic induction.

Connect the shield wire to the ground terminal with using caution not to contact with the 2 point ground as occasion demands.

(C) Make the wire for the input by twisting tightly against the noise from electric induction. (D) Make the wire by referring [1.3.3.5 Use of sub relay] as necessary.

Under Φ5.8mm

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control

1.3.2 Terminal layout

1.3.2.2 TEMP2000M display part terminal

Ethernet

Electric power (24V DC)

COM1 Connect display part and connection part to PC (Ethernet)

COM1 Display part, control part and connection part

COM2 Display part and PCconnection part (RS485)

1.3.2.3 Control part terminal

COM1

Display

part,

control

part and

COM2

I/O board,

control part

and

connection

Electric power (24V DC)

OUT1

(SSR,SCR,RET)

OUT2

(SSR,SCR,RET)

HBA

Main

unit

INPUT

HBA1, 2

OUT1

(SSR,SCR,RET)

OUT2

(SSR,SCR,RET)

Sub unit

INPUT1

Sub unit

INPUT2

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1.3.2.4 I/O1 BOARD terminal

DI10

DI12

DI14

DI16

COM

RLY12 RLY11 RLY10RLY9

RLY12 RLY11 RLY10 RLY9

DI2

DI4

DI6

DI8

DI1

DI3

DI5

DI7

DI9

DI11

DI13

DI15

COM

NO NO

NC NC

COM

I/O1 LINK

NO NO

NC NC

1.3.2.5 I/O2 BOARD terminal

COMCOMCOMCOM COM COM RLY27RLY28RLY29RLY30 RLY31 RLY32

Electric power

(24V DC)

Communication

terminal

RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1

COM COM COM COM COM COM COM COM

I/O2 LINK

RLY26 RLY25 RLY24 RLY23 RLY22 RLY21 RLY20 RLY19 RLY18 RLY17 RLY16 RLY15 RLY14 RLY13

COM COM COM COM COM COM COM COM COM COM COM COM COM COM

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1.3.3 Electric power wiring

▶ For electric power cable, make wiring using the cable with equivalent performance of vinyl insulation

cable (KSC 3304).

☞ Wiring method for electric power of each unit

☞

Electric power 24V DC

Communicati on cable (MP0310AS)

24V DC(+)

24V DC(-)

Communicati on cable (MP0310AS)

24V DC(-)

24V DC (+)

I/O BOARD

220V AC

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Wiring method for electric power control unit of each unit

1.3.3.1 Measured input (ANALOG INPUT) wiring

▶ Switch off the electric power and external power supply on the main body of TEMP2000M certainly in

case of wiring the measurement input because there is a risk of electric shock. ▶ Use the shield attached input wire. Make one point ground for shield. ▶ Make the wiring for the measurement input signal line with leaving the gap from the electric power circuit

or ground circuit. ▶ Use the electric cable with less cable resistance and cable with no resistance difference among 3 lines.

(A) Temperature measuring resistor input (RTD INPUT)

(B) DC VOLTAGE INPUT (C) DC CURRENT INPUT

24V DC

SHIELD

The 3rd class

SHIELD

RTD

The 3rd class

SHIELD

DCmA

The 3rd class

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1.3.3.2 Control output (ANALOG OUTPUT) wiring ▶ Connect using caution for the output polarity. The wrong connection becomes a reason of the main

body.

▶ Use the shield attached cable for output wiring.

In addition, make one point connection for the shield.

(A) Electric voltage pulse output (SSR)

(B) Current output (SCR)

OUT1+

OUT1-

OUT2+

OUT2-

OUT1+

OUT1-

OUT2+

OUT2-

OUT1+

OUT1-

OUT2+

OUT2-

SHIELD

Control panel

The 3

SSR : 24V DC(12V DC min, 600Ω min)

SHIELD

class

Control panel

The 3

SCR : 4~20mA DC, 600Ω max

SHIELD

class

Receiver (Recorder and etc)

The 3

4~20mA DC, 600Ω max

class

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•

1.3.3.3 3 Output (Relay) wiring for external connection point ▶ Please switch off the electric power and power supply to outside from the TEMP2000M main body

certainly in case of wiring the external contact point output because there is an electric shock risk.

▶ Connecting point output (RELAY) : NORMAL OPEN under 30VDC 1A, under 250VAC 1A

Under 30V DC 1A, under 250V AC 1A Under 30V DC 1A, under 250V AC 1A

RLY1

RLY13

COM

RLY2

COM

•

• I/O1 BOARD

Under 30V DC 1A, under 250V AC 1A

RLY9_NC

RLY9_NO

RLY10_NC

RLY10_NO

COM

I/O1 BOARD

NO(NORMAL OPEN): Under 30V DC 1A, Under 250V AC 1A

NC(NORMAL CLOSE):Under 30V DC 1A, Under 250V AC

COM

RLY14

COM

•

RLY11_NC

RLY11_NO

RLY12_NC

RLY12_NO

COM

I/O2 BOARD

I/O1 BOARD

1.3.3.4 Input wiring for contact point (DI) ▶ Use the dry contact point for the external connection point (Relay contact point). ▶ Use the dry contact with sufficient opening and closing capacity for the terminal voltage (About 5V) in

case of OFF and electric current (About 1mA) in case of ON.

▶ Use the both terminal voltage under 2V, and under 100μA of leak current in case of contact point ON

when the open collector is used.

Relay contact point input Transistor contact point input

DI1

DI2

•

DI16

DI_COM

DI1

DI2

•

DI16

DI_COM

I/O1 BOARD

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1.3.3.5 Use of sub relay

▶ ON/OFF the load with use of sub relay in case that the resistance load exceeds the relay specification. ▶ In case of using the inductance (L) load such as the sub relay and solenoid valve, insert the CR filter (In

using AC) or diode (In using DC) by constituting the surge suppressor circuit for spark removing certainly because it becomes a reason for mal operation and relay failure.

▶ Recommended CR filter

☞ Sungho Electronics : BSE104R120 25V (0.1μ+120Ω) ☞ HANA PARTS CO : HN2EAC ☞ Songmi Electric Co: CR UNIT 953, 955 etc ☞ Jiwoel Electric Manufacturing Co:: SKV, SKVB etc ☞ Shinyoung Communication Co :: CR-CFS, CR-U etc

① In case of DC relay

※ RELAY (Use the relay coil with capacity under the

contact point capacity.)

Gauge

External DC current

DIODE (Direct connect to the relay coil terminal)

② In case of AC relay

※ RELAY (Use the relay coil with capacity under the

contact point capacity.)

CR filter (Direct connect to the relay coil terminal.)

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1.3.3.7 Display part communication wiring method

15 ~ 20 mm (Minimum marginal dimension in case of cable connection)

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1.4 Display function and name

▶ TEMP2000M display part

① Cover (When the cover is opened, the electric power switch, inserting part of SD card and mini USB

connection part are displayed.)

② TEMP2000M display part electric power switch ③ SD CARD insertion part (Use for SD CARD option.) ④ LED (The yellow lamp is ON when the first electric power is ON) ⑤ Screen display part ⑥ MINI USB (Use by the user is impossible.)

③

⑥

④

⑤

②

①

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playing

play

1.5 Control part LED

▶ COM1 LED blinks when the communication between display part and control part are connected. ▶ COM2 LED blinks when the communication between control part and I/O1 board is connected. ▶ MV LED blinks depending on the control output for temperature.

(A) Main unit

(B) Sub unit

Main and I/O1 BOARD communication dis

LED for displaying the OUT1 output

LED displaying the communication between display part and main unit.

LED for is playing the communication between main unit and sub unit

Main out

Electric

ut display LED

ower display LED

LED for display the OUT2 output

LED for dis

the electric power

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2. Manipulation and setting

▶ This produce is composed of dialogue style screen in touch screen method and it is a programmable

controller designed easy for use by the customer.

2.1 Basic operation flow chart

▶ When the electric power is ON after the installation of the product, the initial screen is displayed

sequentially and it converts to the program stop screen automatically.

☞ It takes about 22 seconds for screen loading.

▶ When the

to the main screen.

☞ Refer to the [21. System initial setting]을 for initial screen change.

(main) button is pressed on the right upper most at the program stop screen, it converts

Logo display screen Initial screen

Main screen Program Stop Screen

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2.2 Setting button operation

▶ Basic setting buttons are shown in [Table 2-1].

Table 2-1. Basic setting button

Button type Button operation

Touch the ‘Setting Data” in the stationary stop/operation screen and it is used for setting the wanted setting data by the user.

The “Pattern No.” part shall be touched in the program still screen and it is used for setting the wanted pattern No. by the user.

It is used for inputting the general number and name.

It is used for selecting one of the many types.

It is used for setting the segment operation time and etc.

It is used for selecting one of 2 ~ 3 parameter settings. (ON state / OFF state / Inactive state)

It is used for selecting the use or non-use of the corresponding

parameter.

(ON state / OFF state / Inactive state)

It is used for general screen conversion.

It is used for the increase and reduction of the page on the same screen.

It is used for the page conversion by the increase or reduction of the time axis on the same screen.

It moves to the beginning and end of the PV graph page displayed on [6.2 Measurement data (PV) graph view]

It is used for moving the PV display axis up/down of the PV display axis in [6.2 Measurement data (PV) graph view]

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2.3 How to set the parameters

▶ The following setting data input key is displayed and the necessary data can be input when the

clicked at the basic setting button in the above [Table 2-1]

▶ The error message (“LIMIT ERROR”) is appeared on the input data display window with error sound

(”Beep”) when the data out of the setting range is input.

① Input key for setting the number

② Input key for setting the pattern experiment name and DI error name.

☞ Refer to the [19. DI function and operation setting] for DI error name input key.

③ Input key for time signal setting.

④ Input key for SEG alarm setting.

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⑤ User tag input key

⑥ Display in case out of the setting range

Touch key lock release

▶ Input after in OFF (Lock release state) of “Key lock” because the setting data is not input when

the “Key lock” is “ON (Locked state)

A. Refer to the [4. Operation motion setting] for details of setting.

2.3.1 Effectiveness of the setting button and setting data

▶ This product is designed as follows when the setting data input button is pressed or to check the

effectiveness of the input setting data by sound. ☞ “Beep” : When the basic setting button is pressed or the setting data is input normally ☞ “Beep and beep”: When the input data by the setting data input key is out of the input range.

Cautions in manipulation

▶ Do not press with the sharp thing (Pencil and etc) or excessive power when the basic setting

button and setting data input key are pressed. It may become the reason for the malfunction or damage on the touch panel.

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2.3.2 Setting data input method.

▶ The input data used in product is set by the setting data input key, test name input key and time signal

input.

▶ When

can be input.

▶ Refer to [5.4 Time signal operation] for time signal input key. ▶ Function and explanation of setting data input key

button in [Table 2-1] is pressed, the setting data input key is appeared, the data to be set

⑩

① ②

⑥

⑧⑦

⑨

③

④

⑤

① It displays the "Parameter." ② It displays the “Setting range.". ③ When the setting range is out of the “Setting data display window", the error message (“LIMIT ERROR”)

is displayed.

④ It is used when it returns to the original screen after stopping the input. ⑤ It returns to the original screen after saving the input data. ⑥ It is used to input the decimal point. ⑦ It is used to input the sign (+/-). ⑧ It is used to change the input data, the input data is erased by a single character. ⑨ It is used to erase all input data. ⑩ It displays the previously input setting data.

Ex) Setting data input method

▶ The method to change the setting data 49.4 into -12.5 is as follows. → Press the setting data input button on the corresponding screen. → Press the corresponding figures (①→②→③→④→⑤) in sequence, and press “ENTER” key(⑥)

finally.

③

⑤

②

①④ ⑥

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3. Setting operation state

3.1 Main screen

①

②

④

No. Instruction Description

① Graph & Storage

② OPER. SCREEN It moves to the stop/operation screen.

[그림 3-1] 메인화면

It moves to the screen to set the use/non-use of the graph display, graph recording and SD recording use.

③

⑤

⑥

③ FUNCTION&FIX It moves to the function and operation method setting screen.

④ PROGRAM SET It moves to the program setting menu screen.

⑤ RESERVE SET It moves to the current time, appointed operation time setting screen.

⑥ DISPLAY SET

It moves to the screen for setting the screen brightness adjustment, PV font, buzzer sound use/non-use and backlight electricity saving.

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3.2 Stationary (FIX) operation

3.2.1 Stationary operation the 1st still scree

▶ Select the operation method in “Stationary” in [4. Operation related motion setting]. ▶ When “Operation state screen” is selected in [3.1 Main screen], it converts to “Stationary operation the

still screen.”

▶ The following is the screen for 6 channel of sub channel.

▶ When the ‘Setting data” is touched for setting data input, the input key is displayed. ▶ When the “Setting” is touched in the sub channel, the input key is displayed.

[Fig. 3-2] Stationary operation the 1

still screen

Table 3-1. Stationary still screen parameter

Parameter Setting range Unit Initial data

Setting data (SP) EU(0.0 ~ 100.0%) EU EU(0.0%)

※ EU : Sensor input data range

☞ Refer to [Engineering Unit]

[Fig 3-3] Setting data input screen

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3.2.2 Stationary operation the 1st operation screen

▶ It is the screen for measured data, setting data, control output quantity and lamp operation state. ▶ The setting data input key is displayed when the “Setting data” is touched during operation.

①

②

③

④ ⑤

⑥ ⑦

① It displays the current operation status. . ② It displays current setting data. ③ It displays the current measured data. ④ It displays the current setting data of the sub channel. ⑤ It displays the current measured data of the sub channel. ⑥ The “ON” state of the state lamp is displayed in red and “OFF” state is in dark grey.

☞ The state lamp can be set in [Fig. 21-3 System initial setting screen].

⑦ The No. of PID group is expressed which is being adopted currently.

☞ The adopted PID group can be checked in [18. PID group].

⑧ It displays the current date/time and the LCD screen is OFF when it is pressed.

☞ The red lamp is ON when the date/time button is pressed in the operation still screen. ☞ The green lamp is ON when the date/time button is pressed on the operation screen.

⑨ It moves to the [Fig. 3-1 Main screen].

☞ The key pad to input the password is displayed in case of main button restriction setting.

⑩ It moves to the next screen from current screen. ⑪ It performs or releases the auto tuning with current setting data.

☞ The Y/N of the tuning button display can be set in [18. PID group].

⑫ The main, sub (Sub channel) is selected for performing the auto tuning. ⑬ It is the user button.

☞ The Y/N button for use can be set in [21. System initial setting]. ☞ When the user button is used, the relay wanted by user can be set and used in the [13. DO Relay

setting]

Ex) It is used for ON/OFF of chamber output ON/OFF.

☞ The set relay is operated when the “User” button is pressed in the stationary and program

still/operation screen.

⑭

It displays the stationary operation processing time.

⑮ It is a button for operation/stop.

[Fig. 3-4] Stationary operation the 1

operation screen -1

⑧

⑨

⑩

⑪

⑫

⑬ ⑭

⑮

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①

[Fig 3-5] Stationary operation the 1

operation screen -2

① t displays the user tag.

☞ The setting for the user tag and name can be set in [7.1 Screen display setting].

▶ It is the operation screen in case of 2, 4 sub channels.

[Fig. 3-6] Screen for 2 channels of sub channel

[Fig. 3-7] Screen for 4channels of sub channel

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3.2.3 Stationary operation the 2nd operation screen

▶ (

) Check box sets the display for Y/N of the data.

▶ The data stored in the internal memory is erased when the electric power is OFF.

☞ Save the important graph file with SD card. ☞ Refer to the [6.2 Measurement data (PV) graph view].

※ The down load with the SD card is not available during the saving the measurement data, setting data

and control output quantity which is being recorded into the internal memory.

①

③

④

②

① It displays the channel which is being saved. ② The capacity of internal memory is displayed. .

☞ About 25 days of storage is possible when the sampling time is made in 1 second. .

③ The recording is started depending on the saving media setting of [6. Graph display and storage

setting]의 when the save button is pressed.

④ It deletes every file saved in the internal memory.

[Fig. 3-8] Stationary operation the 2

operation screen

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3.2.4 Stationary operation still screen

▶ The stationary operation is terminated while the “Time setting operation is terminated” is appeared as

shown in the following screen when the operation is stopped by passing the setting time in [4. Operation related motion setting].

▶ The message is not appeared on the screen when it is forced to terminate by pressing the “Stop” button

during operation.

▶ The message is disappeared when the corresponding part is touched in case of display of the message

showing the operation termination.

☞ It is same with the program operation termination.

[Fig. 3-9] Stationary operation still screen -1

[Fig. 3-10] Stationary operation still screen -2

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3.3 Program operation

3.3.1 Program operation the 1st still screen

▶ Select the operation method of “Pattern” in [4. Operation related motion setting]. ▶ When “Operation state screen” is selected in [3.1 Main screen], it converts to “Stationary operation the

still screen.”

▶ Refer to the [5.1 Program pattern setting] for pattern setting. ▶ It converts to [Fig. 3-13 Program operation the 1

the bottom is pressed in the [Fig. 3-11 Program the 1

operation screen] when (Operation) button at

still screen].

[Fig. 3-11] Program operation the 1

still screen -1

▶ When the “Pattern No.” is touched in the screen, the input key is displayed for pattern number input.

[Fig. 3-12] Pattern number input

Table 3-2. Program still screen parameter

Parameter Setting range Unit Initial data

Pattern

number

1~40 ABS 1

▶ It is not operated when the program is not input on the pattern number displayed on the

screen.

☞ Refer to [5.1 Program pattern setting].

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3.3.2 Program operation the 1st still screen

▶ It is the screen for measured data, setting data, control output quantity and operation state. ▶ The pattern No. cannot be set during operation.

①

②

③

④

⑤

⑥

⑦

⑧

① It displays the current operation status. ② It displays current pattern No. and SEG No. ③ It displays the current measured data. ④ It displays the current measured data of the sub channel. ⑤ It displays current program pattern No. and SEG No. ⑥ It displays the pattern repetitions state.

☞ [Pattern repetition frequency : 000/000] The front digits show the repletion frequency and the rear

digits show the set repetition frequency.

⑦ The No. of PID zone is expressed which is being adopted currently. ⑧ It displays the processing time and setting time of the segments which are being progressed.

☞ [SEG time : 000H00M00S/000H00M00S] The time in the front means the segment processing time

and the time in the back means the setting time in the [5.1 Program pattern setting].

⑨ It means current date/time and the LCD screen blinks when it is pressed.

☞ The red lamp is ON when the date/time button is pressed on the operation still screen. ☞ The green lamp is ON when the date/time button is pressed on the operation screen.

⑩ It moves to the [Fig. 3-1 Main screen].

☞ The key pad to input the password is displayed at the main button restriction setting.

⑪ It moves from the current screen to the other screen. ⑫ The partial repetition state is displayed.

☞ [SEG repetition frequency : 00/00] The front digits show the repeated processing frequency and the

rear digits display the set repetition frequency.

⑬ The program operation processing time is displayed.

[Fig. 3-13] Program operation the 1st still screen -2

⑨

⑩

⑪

⑫ ⑬

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▶ It is the screen for measured data, setting data, control output quantity and sub channel tag name. ▶ The pattern No. cannot be set during operation.

①

②

③

④

⑥

⑤

[Fig. 3-14] Program operation the 1

operation screen -3

① The current setting data is maintained (HOLD ON) or released (HOLD OFF). ② It terminates the segment which is being processed and moves forcibly to the next segment. ③ It performs or releases the auto tuning with current setting data.

☞ The Y/N of the tuning button can be set in [18. PID Group]

④ The main and sub channel to perform the auto tuning are selected. ⑤ It is the user button.

☞ The use/non-use can be set at the [21. System initial setting] ☞ When the user button is used, the wanted relay the user can be set and used in [13. DO relay setting].

Ex) It is used for the chamber lamp output ON/OFF.

☞ The set relay is operated when the “User button” is pressed in the stationary and program

still/operation screen.

⑥ It displays the user tag.

☞ The user tag setting can be set in the [7.1 Screen display setting].

※ The buttons of ① ~ ④ are not displayed in the program operation and still screen.

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3.3.3 Program operation the 2nd operation screen

▶ The left side of the screen displays the measurement data, setting data and control output quantity ▶ (

) Check box sets the display for Y/N of the data.

▶ Press the

internal memory.

▶ The data stored in the internal memory is erased when the electric power is OFF.

☞ Save the important graph file with SD card. ☞ Refer to the [6.2 Measurement data (PV) graph view].

※ The down load with the SD card is not available during the saving the measurement data, setting data

and control output quantity which is being recorded into the internal memory.

(Saving) button on the middle of the right to save the data recording the button into the

①

③

④

②

[Fig. 3-15] Program operation the 2

operation screen

① It displays the measurement data, setting data and control output quantity which are being operated. ② The capacity of internal memory is displayed.

☞ About 25 days of storage is possible when the sampling time is made in 1 second.

③ It is a button to save the measurement data, setting data and control output quantity which are being

recorded into the internal memory.

④ It deletes every file saved in the internal memory.

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3.3.4 Program operation still screen

▶ The program operation is terminated while the “Program operation is terminated” is appeared as shown

in the following screen when the setting range operation is stopped in every segment saved into the pattern.

▶ The message is not appeared on the screen when it is forced to terminate by pressing the “Stop” button

during operation.

▶ The message is disappeared when the corresponding part is touched in case of display of the message

showing the operation.

☞ It is same with the stationary operation termination

[그림 3-16] 프로그램운전 정지 화면

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3.4 Auto tuning screen

▶ The auto tuning method is categorized into SEG PID type and zone PID type. ▶ The auto tuning hold and step key cannot be used during program operation.

3.4.1 Auto tuning (SEG PID type)

▶ The SEG PID type process the auto tuning based on the currently setting data and the tuning data is

saved into “PID No.” set in the parameter.

▶ The currently setting data becomes the auto tuning setting data during auto tuning operation.

☞ The SEG is held during program operation.

▶ The operation is made in currently setting data during auto tuning termination.

☞ The SEG is processed during the program operation.

①

① It sets the PID No.

☞ The tuning data is saved in selected No. at the completion of auto tuning.

Table 3-3 Auto tuning (SEG) parameter

Parameter Setting range Unit Initial data

Auto tuning OFF, 1 ~ 6 ABS OFF

[Fig. 3-17] SEG PID auto tuning screen

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▶ FIX and PROGRAM: AUTO TUNING(SEG)

☞ INRH, INRL : Indicates input sensor range. ☞ Threshold 1 ~4: Indicates threshold value of PID No. ☞ Auto Tuning : Indicates PID No selected for Auto Tuning. ☞ Auto Tuning Set Point: Indicates currently running Set Point.

INRH

FIX OPERATION: AUTO TUNING (SEG)

1000

900

Threshold4

800

650

Threshold3

Threshold2

500

600

400

350

Threshold1

200

150

INRL

Auto

Tuning

Auto Tuning

Set Point

PID No.

150

PROGRAM OPERATION: AUTO TUNING (SEG)

350

900

650

500

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3.4.2 Auto tuning (Zone PID type)

▶ The tuning is made with the target of the center point of boundary data in PID No. group set in auto

tuning parameter and the tuning data is saved into the set PID No.

▶ The current setting data is changed into the auto tuning setting data when the auto tuning is performed.

☞ The SEG is held during program operation.

▶ The current setting data is changed into previous setting data during auto tuning termination.

☞ The SEG is processed during program operation.

▶ The auto tuning data is not saved into PID No. when it is forcibly released during automatic auto tuning.

☞ The tuning data is not saved into the PID No during automatic auto tuning when in case of blackout.

①

① The tuning data is saved with selected PID No. at the completion of auto tuning.

☞ The figures inside the box display the PID No. ☞ When the auto is selected, the tuning data is save sequentially in 1 ~ 6.

Table 3-4 Auto tuning (Zone) parameter

Parameter Setting range Unit Initial value

AUTO TUNING OFF, 1 ~ 6, Auto ABS OFF

[Fig. 3-18] Zone PID auto tuning screen

Cautions in auto tuning (Zone type)

▶ Even single PID No. is not saved when the Auto tuning is forcibly terminated. . ▶ Even single PID No. is not saved in case of blackout.

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▶ FIX and PROGRAM: AUTO TUNING (Zone)

PROGRAM OPERATION: AUTO TUNING (Zone)

FIX OPERATION: AUTO TUNING (Zone)

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▶ Tuning point calculation in zone type shall be made as follows.

① Tuning point : 1

☞ PID1 range auto tuning is performed.

－ PID1 auto tuning setting data=

② Tuning point : 2

☞ PID2 range auto tuning is performed.

－ PID2 auto tuning setting data= Boundary data1 +

③ Tuning point : 3

☞ PID3 range auto tuning is performed.

－ PID3 auto tuning setting data= Boundary data2 +

④ Tuning point : 4

☞ PID4 range auto tuning is performed.

－ PID4 auto tuning setting data= Boundary data3 +

⑤ Tuning point : 5

☞ PID5 range auto tuning is performed.

－ PID5 auto tuning setting data= Boundary data4 +

⑥ Tuning point : 6

☞ PID6 range auto tuning is performed.

 PID6 auto tuning setting data=

⑦ Tuning point : Auto

☞ The a1 in PID1 ~ 6 range is processed sequentially. ☞ The auto tunned PID data is saved into PID1 ~ 6 range.

－ PID1 auto tuning setting data= Lower limit range +

－ PID2 auto tuning setting data= Boundary data1 +

－ PID3 auto tuning setting data= Boundary data2 +

－ PID4 auto tuning setting data= Boundary data3 +

－ PID5 auto tuning setting data= Boundary data4 +

 PID6 auto tuning setting data= Lower limit range +

Lower limit

range +

Lower limit range +

Boundary data1 – Lower limit range

Boundary data2 – Boundary data1

Boundary data3 – Boundary data2

Boundary data4 – Boundary data3

Upper limit range – Boundary data4

Upper limit range – Lower limit range

Boundary data1 – Lower limit range

Boundary data2 – Boundary data1

Boundary data3 – Boundary data2

Boundary data4 – Boundary data3

Upper limit range – Boundary data4

Upper limit range – Lower limit range

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3.5 Sub channel auto tuning

▶ It is a screen for auto tuning of the sub channel. ▶ The sub channel processes the tuning with set SP.

①

②

① The auto tuning is performed or released with current setting data. . ② It selects the main or sub (sub channel) which will perform the auto tuning.

☞ The corresponding sub channel is set and the auto tuning is processed.

[Fig. 3-19] Screen set with sub 2 tuning

[Fig. 3-20] Screen of processing of auto tuning in sub channel

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3.6 AUTO TUNING and TUNING POINT

▶ Auto-Tuning is a strong function to establish optimal P.I.D value automatically by calculating the

characteristics of the control system.

▶ While generating ON/OFF control output signal for 2.5 cycles, the controller measures the PV response

of the control system with a limit cycle method and calculate the optimal P.I.D value with the oscillation data.

▶ Auto-Tuning process can be carried out on FIX / PRORGAM RUN state, and after completion of Auto-

Tuning process, calculated P.I.D value with SP will be automatically stored on P.I.D parameters of corresponding zone.

▶ It executes sequential Auto Tuning and store to PID sequentially when select “Auto” from Auto Tuning

Parameter.

▶ Auto tuning procedure with a set point.

▶ Operation Type: Fix Operation ▶ Input Sensor: Temperature(K2)

Parameter

Settings

▶ Range: -200.0℃ ~ 1370.0℃ ▶ Auto Tuning Point: 0.25% → EUS 0.25% = 3.9℃ ▶ Set Point(SP) : 50.0℃ ▶ OL : 0.0% ▶ OH : 100.0%

Tuning

Procedure

Auto Tuning

Point

51.5℃

SP = 50.0℃

48.5℃

Process of auto tuning

OFF

PID Control

OFF

▶ Auto Tuning Precautions

① The tuning point does not change even if the SP is changed during auto tuning. When auto tuning

has completed, operation continues again with the changed SP.

② If ‘S.OPN’ occurs during auto tuning, the process stops. PID stays the same before auto tuning. ③ Auto tuning stops automatically, if the second cycle is operated longer for 27 hours. ④ PID may change during auto tuning, but when the process is finished, the PID will be reset to new

calculated value from auto tuning process.

⑤ If auto tuning is terminated by force, the PID is the same value as it was before auto tuning began.

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4. Operation related motion setting

4.1 Operation method setting

▶ It is a screen for the additional function of the general device and the additional installation in stationary

operation.

①

②

③

④

① Either of the pattern or stationary operation can be selected for setting. ② The recovery motion can be set in case of blackout.

☞ Stop : It is a motion to return to the operation stop state when the power is returned after blackout

in operation state.

☞ Restart : It is a motion to start the operation from the beginning after blackout in operation state. ☞ Continuous : It is a motion to return to the operation state before the blackout after blackout in

operation state.

③ The control is stabilized in case of external problem is created.

☞ Non-operation: The fuzzy function is not used. ☞ Operation: It uses the fuzzy function and the overshoot is inhibited.

④ It automatically increases or decreases with the set ratio in case of setting data change. (It is applied

only in stationary operation.)

⑤ The operation is terminated when the set time is coincided with the set data of total operation

processing time in [3.2.2 Stationary operation the 1 operation only.)

⑥ The key pad to input the password is display when the main button is pressed in the operation screen

at the setting of the main button control is set.

☞ [Fig. 4-2] Reference

⑦ When

☞ The screen movement and key lock release is available.

(key lock) button is pressed, every parameter is not available.

[Fig. 4-1] Screen for setting operation related motion

operation screen] (It is available in stationary

⑤

⑥

⑦

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표 4-1. Operation related motion parameter

Parameter Setting range Unit Initial value

Operation method Pattern, Stationary ABS Pattern

Recovery motion in

blackout

Fuzzy function No motion, Motion ABS No motion

SETTING DATA

change ratio

Time setting

operation

Time 0 ~ 9999 HOUR ABS 0

Minute 0 ~ 59 MIN ABS 0

Main button

restriction

Key lock OFF, ON ABS OFF

▶ The following screen is for the main button restriction setting of the main button. ▶ The password setting key pad is displayed when the main button is pressed in operation screen.

Stop, Restart, Continue ABS Stop

EUS(0.00 ~ 100.00%) / MIN EUS / MIN EUS(0.00%) /MIN

Non-use, Use ABS Non-use

[Fig. 4-2] Main button restriction setting

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4.2 FUZZY function

▶ FUZZY function can effectively control the overshoot that may occur when intense fluctuating load or

frequent Set Point changing.

▶ Before PV approaches to SP, automatically calculated SUPER SP can restrain overshoot.

▪ FUZZY ‘OFF’

▪ FUZZY ‘ON’

NPV

Time

NPV

SUPER SP

▲

Overshoot control

Time

Calculating SUPER SP

by assuming SUPER SP as real SP

Generating MV

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4.3 SP SLOPE function

▶ SP SLOPE function to make the Set Point ascend or descent gradually overtime. ▶ When changing the Target SP during FIX run operation, NSP (current SP) will be changed from current

PV to Target SP gradually by assigned ramping rate.

▶ SP SLOPE Operation

TSP

70.0℃

▶ Operation

→ Fix Operation

▶ Temperature

Change Ratio:

→ 20.0 ℃/Min.

40.0℃

30.0℃

20.0℃

SP Chan

2 Min.

Amount of change to TSP = [SP(TSP) - PV] and Slope = 20.0℃/min. → (70.0 - 30.0 )℃ = 40.0℃, it will take 2 min to ramp up to TSP ☞ For 2 minutes, NSP will be changed from 30.0℃ to 70.0℃ at a constant

rate of 20℃/min.

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5. Program setting

▶ When program setting button is pressed in [3.1 Main screen], it is converted to [Fig. 5-1 Program

setting screen].

▶ It is a screen group to set the parameter related with program operation.

①

②

④

③

⑤

⑥

No. Instruction Description

① Pattern Set It moves to the pattern editing screen.

② Repeat Set It moves to the screen for setting the pattern and segment repetition setting.

[Fig. 5-1] Program setting screen

③ File Edit It moves to the screen for setting the copy and deletion of the pattern.

④ Time signal It moves to the screen to set the time signal.

⑤ Wait Set It moves to the screen for setting the wait motion.

⑥ Pattern Name It moves to the screen for setting the experiment name.

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5.1 Program pattern setting

▶ It is a screen to set the segment according to the pattern No. ▶ Refer to the time signal setting [5.4 Time signal motion] for time signal setting.

①

②

⑧

⑨ ③ ④ ⑤ ⑥

⑦

① Input the pattern No. to set the segment. ② The starting condition for program operation can be set by selecting any of ‘TPV’, ‘SPV’ and ‘SSP.’

☞ TPV : The setting data for starting program operation (SP) is started with the present measured data

(PV) regardless of the tendency or starting setting data (SSP) and processes setting data 1 (SP1) set I segment 1 (SEG1) for the setting time (TM1).

☞ SPV: The setting data (SP) in program operation start is started from present measured data (PV) and

processes to the setting data 1 (SP1) which is set to segment 1 (SEG1). The remained time for operation time is calculated by regarding the times is passed till the program operation time by referring to the program pattern contents.

☞ SSP: The setting data (SP) in program operation starting process during the set time (TM1) from the

start setting data (SSP) till the setting data (SP1) set in the segment (SEG1).

③ The setting data of the segment to be operated is set. ④ The time for the segment to be operated is set. ⑤ The time signal for the segment to be operated is set.

☞ 8 time signals can be set in each segment and each time signal can be set by selecting out of 20

types.

☞ Refer to [5.4 Time signal motion]

⑥ The SEG alarming of the segment to be operated is set. ⑦ The SEG PID for the segment to be operated is set. ⑧ When the segment is inserted, one of the buttons

the selected button from segment can be inserted when

⑨ When the segment is deleted, one of the buttons

the selected button from selected segment can be deleted when

⑩ The screen moves to the left/right with 4 segment units. ⑪ When

(Pattern) button is pressed, it moves to the [Fig. 5-1 Program setting screen].

[Fig. 5-2] Pattern editing screen

(Segment 01 ~ 99) is selected and pressed,

(Segment 01 ~ 99) and (Insert) button are activated. The selected

(Insert) button is pressed.

(Segment 01 ~ 99) is selected and pressed,

(Segment 01 ~ 99) and (Delete) button are activated. The

(Delete) button is pressed.

⑩

⑪

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PROGRAM RUN START

▶ PROGRAM OPERARTION START is done according to the setting of STC (START CODE)

setup.

(1) Setting Point Preferred Program Operation (STC = SSP)

▶ When program operation starts, SP starts from SSP and operates until SP1 under 1SEG for set Time

1(TM1).

SP1

SSP

TM1

TM2

(2) Slope Preferred Program Operation (STC = S.PV)

▶ When program operation starts Setting Point(SP) starts from the present Process Value(PV) and

operates until Setting Point 1(SP1) under SEG1. Based on the contents of program patten, remaining time is calculated as time is passed till operation starting point.

① When Segment 2 is the first maintaining section.

1 2 3 4 Segment

Present

Pointing Value

a b c d e

Program

Operation Start

C C C D

E(SSP)

② When Segment 3 is the first maintaining section

c d

1 2 3 4 Segment

Present

Pointing Value

a b c d e

Program

Operation Start

A B

C D

E(SSP)

③ When there is no maintaining section

1 2 3 4 Segment

Present

Pointing Value

a b c d e

Program

Operation Start

A B C D

E(SSP)

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④ When there is only rising section without maintaining section.

Segment

Present

Pointing Value

b c

d e

Program

Operation Start

Operation

Not started

E(SSP)

⑤ When maintaining section starts from Segment 1.

Segment

Present

Pointing Value

a b

Program

Operation Start

B B

A(SSP)

(3) Time Preferred Program Operation (STC = T.PV)

▶ When program operation starts, Setting Point(SP) starts from the present pointing value regardless of

slope or Starting Setting Point(SSP) and progresses till Setting Point 1 (SP1) for set time

C D

2 3 4

Segment

Present

Pointing Value

a b

c d

Program

Operation Start

B C D

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▶ It is the screen for sub output setting screen. ▶ Select sub output in [12.1 Control&Transmitting output]. ▶ It is expressed in red in pattern editing screen and the sub output can be set.

▶ When the “Pattern No.” is touched in the screen, the input key is displayed for pattern number input.

▶ When the “Start condition” button is pressed, the input key is displayed for start condition setting.

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▶ It is the screen for the start condition with “SPV.”

▶ It is the screen for the start condition with “SSP.”.

▶ When this

is inactivated, (Insertion), (Deletion) button are activated.

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▶ When setting data button is pressed, the input key is displayed to set the setting data.

▶ When

(time) button is pressed, the input to set the segment operation time is displayed.

▶ When ▶ When

(time signal) button is pressed, the input to set the time signal is displayed.

(TS) button is pressed, the time signal between TS1 ~ TS8 can be set.

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▶ When (SEG alarming) button is pressed, the input key to set the SEG alarming is displayed.

▶ When

(SEG PID) button is pressed, the input key to set the SEG PID is displayed.

▶ Input the time signal and SEG alarming by pressing ▶ Select

☞ The setting data in [5.4 Time signal motion] can be input to the wanted time signal group by pressing

TS1 ~ TS8 button.

Table 5-1. Pattern editing parameter

Starting condition TPV, SPV, SSP ABS TPV

Starting condition (SSP) EU(0.0~100.0%) EU EU(0.0%)

Segment #n Target SP #n.EU(0.0~100.0%) #n.EU #n.EU(0.0%)

Segment #n time signal 1 ~ 8 0 ~ 20 ABS 0

Segment #n SEG alarming 1 ~

Segment #n SEG PID 0 ~ 6 ABS 0

* Time signal No. 8 shall not be used when electric output setting data is used for sub output. * #n : 1 ~ 99

(ESC) button in order to escape from the input screen.

Parameter Setting range Unit Initial data

Pattern No. 1~80 ABS 1

Segment #n time

-00.00.01(OFF) ~ 999.59.59(Hour, Min, Sec)

0 ~ 8 ABS 0

(ENTER) button.

ABS -00.00.01

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5.2 Pattern repetition setting

▶ It is a screen to set the function for the entire set pattern or partial repetition. ▶ In addition, the motion can be set in pattern operation termination.

①

② ③

④ ⑤ ⑥

① The pattern No. to perform the repetition operation is set. ② It sets the repetition operation frequency of the set pattern. ③ It sets the pattern No. to be operated continuously at the termination of operation for the set pattern. ④ It sets the segment to start the partial repetitive operation out of the set patterns.

☞ When the starting segment is ‘1,’ it starts with start setting data (SSP) regardless of starting condition

(STC).

⑤ It sets the segment to terminate the partial repetitive operation out of set pattern. ⑥ It sets the repetition frequency of partial repetitive operation out of the set patterns. ⑦ It displays the experiment name of the set pattern.

☞ The change of experiment name is available only in [5.6 Experiment name setting]. ☞ The change is impossible as it is only for reading. .

⑧ It sets to decide the next motion when the set pattern operation is terminated.

☞ Operation stop: The pattern termination signal is created and the program stops. ☞ SEG hold: It is operated with the last operation s1 and the holding state is maintained. ☞ Connection operation: The pattern which is set the connection pattern is operated.

Table5-2. Repetition setting parameter

Parameter Setting range Unit Initial data

[Fig. 5-3] Screen for repetition setting of pattern and segment

⑦

⑧

Pattern No. 1~80 ABS 1

Repetition frequency 0 (Infinite repetition)~999 ABS 1

Connection pattern 1~80 ABS 1

Motion in pattern termination

Segment for starting of the

repetition setting 1~4

Termination segment of

repetition setting 1~4

Repetition frequency 1~4

setting

Operation stop, SEG hold,

Continuous operation

0~99 ABS 0

ABS Operation stop

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5.3 File editing

▶ It is a screen to copy or delete the segment data input to the pattern in [5.1 Program pattern setting]. ▶ The pattern No. under operation cannot be deleted. ▶ The deleted pattern cannot be recovered.

①

②

③ ④

⑤

① It sets the original pattern No. to be copied. ② It set the first and last digit of the pattern No. to be copied.

☞ The first pattern is copied when the end pattern is “0.”

③ Total set pattern number is displayed in [5.1 Program pattern setting].

☞ The change is impossible as it is only for reading.

④ It displays the total segment number set in [5.1 Program pattern setting].

☞ The change is impossible as it is only for reading.

⑤ It set the first and last digit of the pattern No. to be deleted.

☞ When the end pattern is “0,” only the start pattern is deleted. ⑥ It copies the pattern set in ① to the pattern set in ②. ⑦ The pattern setting data in ⑤ is initialized. ⑧ Every pattern setting data is initialized.

[Fig. 5-4] File editing screen-1

⑥

⑦

⑧

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▶ When the copy and deletion are made by wrong input of the pattern No., the message like “It is the

parameter setting mistake.” Is displayed at the bottom of the screen.

Table 5-3. File editing parameter

Parameter Setting range Unit Initial data

[Fig. 5-5] File editing screen-2

Pattern No. 1~80 ABS 0

Copy

Selective

deletion

▶ Refer to Table 5-4 for message expression.

Table 5-4 Message expression

“No stored at the selected pattern.”

“The copy is completed on the selected

“The deletion of the selected pattern was

“The deletion of every pattern is

“The pattern to be copies is being used.” It is displayed when the pattern is being used.

Start pattern 0~80 ABS 0

End Pattern 0~80 ABS 0

Copy Non-use, Use ABS Non-use

Start pattern 0~80 ABS 0

End Pattern 0~80 ABS 0

SEL.DEL Non-use, Use ABS Non-use

ALL.DEL Non-use, Use ABS Non-use

Contents of message Explanation

It is displayed to copy when nothing is stored into the pattern

No.

pattern.”

completed.”

It is displayed when the selected pattern copy is completed.

It is displayed when the selected pattern is deleted

completely.

It is displayed when every pattern is completely deleted.

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5.4 Time signal operation

▶ The time signal motion is classified into ON/OFF Motion, time setting motion and the set time signal is

used for time signal No. setting in the segment setting of [5.1 Program pattern setting].

5.4.1 Time signal ON/OFF Motion

①

②

③

① The time signal is OFF during the segment operation time corresponding to ‘0.’

☞ The change is impossible as it is only for reading. ② The time signal is ON during the segment operation time corresponding to ‘1.’

☞ The change is impossible as it is only for reading. ③ The screen moves up/down with 6 time signal unit.

[Fig. 5-6] Time signal setting the 1

screen

5.4.2 Time signal time setting motion

▶ Time signal 2~20(TS2~20) is operated depending on the delay time and operation time.

[Fig. 5-7] Time signal setting the 2

screen

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[Fig. 5-8] Time signal setting the 3

screen

① ②

[Fig. 5-9] Time signal setting the 4th screen

① The time signal is ON after the setting time from the corresponding segment starting point till the

delayed time.

☞ However, the time sign is not ON when the delay time is bigger than corresponding segment time. ② The time signal operated in ON by the delayed time in the corresponding segment is ON only for the

setting time in the operation time.

☞ However, when [Delay time+Motion time] is bigger than corresponding segment time, the time signal

is ON during corresponding segment operation and it does not make influence on the next segment.

Table 5-4. Time signal parameter

Parameter Setting range Unit Initial data

Delay time

Operation time

000.00.00(OFF) ~999.59.59(Hr. Min, Sec)

ABS 000.00.00

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5.4.3 Examples of operation when the input time signal

Setting Time signal operation

N SEG TIME ≥ Delay time

+ Operation

time

1. Delay time = 000.00.00

Time signal 2

setting data

2. Delay time

≠ 000.00.00

Time signal 3

setting data

TS1

OFF

SEGMENT

TS2

OFF

SEGMENT

Operation time

(N-1) SEG TIME N SEG TIME (N+1) SEG TIME

Operation time

Delay time

(N-1) SEG TIME

N SEG TIME

(N+1) SEG TIME

Operation time

N SEG TIME < Delay time

+ Operation time ☞ It does not

make influence on the next segment.

3. Delay time = 000.00.00

Time signal 4

setting data

4. Delay time ≠ 000.00.00

Time signal 5 setting data

TS3

OFF

SEGMENT

TS4

OFF

SEGMENT

(N-1) SEG TIME

N SEG TIME

Delay time

(N-1) SEG TIME N SEG TIME

(N+1) SEG TIME

Operation time

(N+1) SEG TIME

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5.5 Standby operation

▶ It is a screen to set the standby range and time to standby during program operation ▶ The set standby operation here is applied to [5.1 Program pattern setting].

※ Definition on standby operation

 Condition for entering the standby operation 

☞ When the measured data do not enter to the standby operation setting range within segment time.

 Condition for releasing the standby operation

☞ When the measured data enters to the standby operation within segment time.

 When the standby time is not set (initial value), the standby time shall have the infinite value.

①

②

③

④

[Fig. 5-10] Screen for setting the standby operation

① It sets Y/N of using the standby operation. ② It sets the operation range to adapt the standby operation. ③ When the measured data do not enter the standby operation range, the standby time to be applied is

set.

☞ When the standby operation time is set as 00.00, it standby infinitely until entering to the standby

operation range.

④ It sets the standby operation method in “Total” or “SEG Maintain.”

☞ When the entire is set, the standby operation is applied to the entire segment set in [5.1 Program

pattern setting].

☞ When the SEG Maintain is set, the standby operation is applied only to the segment for maintain range

which is set in [5.1 Program pattern setting].

Table 5-5. Standby operation setting parameter

Parameter Setting range Unit Initial data

Standby operation setting Non-use, Use ABS Non-use

Standby operation range EUS(0.00~100.00%) EUS EUS(0.00%)

Standby operation time 0.00~99.59 (Hr.Min) ABS 00.00

Standby operation type Entire, SEG Maintain ABS Entire

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▶ The relation between s1 and standby time is as follows. ▶ S1 scope : It displays the standby operation range.

① Release WAIT Operation within WAIT TIME

Wait Zone

WAIT Operation

(Actual Delay Time)

Wait Time

Release WAIT Operation Step to the next Segment (n+1) progression

Set Point

Segment n Segment (n+1) Segment (n+2)

② When Measure Point does not reach Wait Zone within Wait Time.

Wait

Wait Zone

WAIT Operation

(Actual Delay Time)

Set

Release WAIT Operation Step to the next Segment (n+1) progression

Segment n Segment (n+1) Segment (n+2)

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5.6 Experiment name setting

▶ The experiment name can be set to each pattern. ▶ Refer to [3.3.2 Program operation the 1

①

operation screen].

②

① The experiment name of each pattern can be input. ② It converts to the next or previous experiment name screen.

[Fig. 5-11] Experiment name setting screen

▶ When (Name) button is pressed, the input key to set the experiment name is displayed.

[Fig. 5-12] Experiment name input screen

Table 5-6. Experiment name setting parameter

Parameter Setting range Unit Initial data

Experiment name

1~80

0~9, A~Z, Special character

(Maximum 24 characters)

ABS EXPERIMENT OF PATTERN 1~ 80

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6. Graph display and saving setting

6.1 Pattern graph display

▶ This screen displays the operation pattern and process time with graph during program operation. ▶ It converts to the 1

[Fig. 3-1 Main Screen]. ▶ 에서It is a screen to display the input pattern in [Fig. 5-2 Pattern editing screen]. ▶

(Pattern No.) and (Display time) can be changed during the graph process.

screen (Pattern graph display)] when [Graph & Save] is selected at the upper left of

① It displays the graph setting menu

☞ The parameter related with the pattern graph operation is displayed at the bottom depending on the

ON/OFF operation of graph menu button.

② The pattern No. to be expressed is set.

☞ When ☞ Refer to [Fig. 6-4 Pattern No. Input Screen]

③ The time of X axis on the graph X is set.

☞ When ☞ The time on the X axis can be changed during operation.

④ It moves to the current screen to the next screen.

②

[Fig. 6-1] Graph & Save the 1st screen (Time axis base change)

[Fig. 6-2] Graph & Save the 1

(Pattern No.) button is pressed, the key to set the pattern No. is displayed.

(Display time) button is pressed, the key to set the time on X axis is displayed.

screen (Pattern graph display)

①

③

④

⑤

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⑤ When the (Left/Right) button is pressed at present page, it changes into the previous/next stage

on the time axis.

▶ It is a screen to display the process time of the segment.

①

②

③

[Fig. 6-3] Graph & Save the 1st screen (Program operation)

① It displays the current temperature even during the operation ② It colors into light green on the part where the operation is processed. ③ It displays the set pattern process time in [5.1 Program pattern setting].

▶ It is a screen to input the pattern No. to be displayed on the graph. ▶ The pattern No. can be input even during operation.

[Fig. 6-4] Pattern No. input screen

Table 6-1. Graph & Save the 1

screen parameter

Parameter Setting range Unit Initial data

Pattern No. 1 ~ 80 ABS 1

Display time

30 min, 1 hour, 3 hours, 6 hours,

12 hours, 24 hours

ABS 30 minutes

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6.2 Measured data (PV) graph view

▶ It is a screen to display by opening the data file recorded in [3.2.3 Stationary operation the 2

screen] and [3.3.3 Program the 2 ▶ The date and time stored in the internal memory is displayed on the top of the screen.

①

operation screen].

②

③

④

⑤

operation

[그림 6-5] 그래프 & 저장 설정 제 2 화면(그래프 표시 선택)

① It displays the channel which is being saved now.

☞ It disappears from the graph screen when

checked button is pressed and when is pressed

again, it displays on the graph screen.

☞ Refer to [Fig. 6-5, Fig. 6-6 Graph & Save setting the 2

screen].

② It moves from current screen to the next screen. ③ It moves to the start and end of the displayed PV graph page. ④ It moves on the graph screen by one page. ⑤ The blue line on the graph screen is moved up/down by 1 dot.

☞ When the screen is touched, it displays the data on the indicated point while the blue line is moved.

▶ It is a screen without the selection items in the channel items which is being saved.

[Fig. 6-6] Graph & Save setting the 2

screen (Graph display is not selected.)

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▶ It is a screen to display the saved file into the internal memory. ▶ Refer to [3.2.3 Stationary operation the 2

operation screen] and [3.3.3 Program operation the 2nd

operation screen] for saving into internal memory. .

②

①

③

④

[Fig. 6-7] Graph & Save setting the 2nd screen (Display of stored screen)

① When

(PV file) button is pressed, it shows the saved file in the internal memory.

② It displays the saved file into the internal memory in 8 units. ③ When

(up/down) button is pressed, it moves to the 8 units of stored files.

④ The recorded PV file in the internal memory is copied to the SD card.

☞ When there is no SD card option, it is inactivated during the PV graph saving in operation screen. ☞ When the graph is not saved, it cannot be transmitted into the internal memory as the memory is

not saved.

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6.3 Setting the measure data (PV) graph saving

▶ It is a screen to set the display range and sampling time in [3.2.3 Stationary operation the 2

screen] and [3.3.3 Program operation the 2

①

②

③

operation screen].

operation

[Fig. 6-8] Graph & Save setting the 3

screen

① It sets the PV graph saving period.

☞ It cannot be saved during PV graph saving. ☞ About 25 days of saving is available when the sampling time is set 1 second in saving into the internal

memory.

② It sets the Y/N of the data saving into SD CARD.

☞ Auto : It saves the data automatically in link with Operation/Stop. ☞ Manual: It saves the data manually by the save key on the operation the 2

screen.

③ It sets the saving media where the data to be saved.

☞ The saved data stored into the internal memory is erased when the power is OFF.

Table 6-2. Graph & Save the 3

screen parameter

Parameter Setting range Unit Initial data

Sampling time 00.01 ~ 99.59 (Min, Sec) ABS 00.01

Save motion setting Auto, Manual ABS Auto

Save media Memory, SD card, both of them ABS Both of them

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▶ It is a screen to set the pen using on the PV graph. ▶ It can set up to Pen 6.

①

②

④

③

⑤

[Fig. 6-9] Graph & Save setting the 4

screen-1

⑥

⑦

[Fig. 6-10] Graph & Save setting the 4

screen-2

① It sets the pen name on PV graph.

☞ It is changed at the tag name change in [Fig. 7-1 Screen Display Setting]. However, the user tag

name is not changed in name changing on this screen.

② It selects the parameter to be displayed by pen 1.

☞ PV on the main is display when CH1.PV is selected. PV can be displayed by selecting the sub channel

to be displayed when the sub channel is selected.

③ It sets the scale of the pen. ④ It selects the parameter to be displayed by pen 2.

☞ The SP in the main is displayed when CH1.SP is selected. PV can be displayed by selecting the sub

channel to be displayed when the sub channel is selected.

⑤ It moves the page up/down at the curent screen. ⑥ It selects the parameter to be displayed by pen 3.

☞ MV on the main is display when CH1.MV is selected. PV can be displayed by selecting the sub

channel to be displayed when the sub channel is selected.

⑦ It selects the parameter to be displayed by pen 4.

☞ PV can be displayed by selecting non-use or sub channel. ☞ Pen 5, 6 is same with pen 4.

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6.4 SD memory storage setting

▶ It is a set the necessary item in data backup on SD card.

☞ It is a screen to display only in SD card option.

①

②

① It sets the transmitting item and transmitting direction in SD CARD and TEMP2000M.

☞ Download : It means the transmitting the selected items out of the TEMP2000M internal data to SD

card. ☞ Upload : It means the transmitting the selected items out of the saved data in SD card to TEMP2000M. ☞ Ptn : The pattern set in [5.1 Program pattern setting] can be downloaded or uploaded. ☞ Para : The set parameter can be downloaded or uploaded. ☞ All : The pattern and parameter can be downloaded or uploaded.

② It displays current SD CARD capacity.

☞ It is displayed when SD CARD is inserted.

③ The

download or upload is available when

Table 6-3. Graph & Save the 5

Parameter Setting range Unit Initial data

Transmission item PTN, Para, All ABS Pattern

Transmission

direction

(Transmitting) button is activated when the program and stationary operation are stopped and

[Fig 6-11] Graph & Save setting the 5th screen

(Transmitting) button is pressed.

screen parameter

Downloadl, upload ABS Download

③

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7. Screen display setting

7.1 Screen display setting

▶ It is a screen to set the font and to control the screen brightness to be displayed in operation screen.

①

②

③

① It sets the Y/N of buzzer sound. ② The back light saving time can be set.

☞ The power saving operation time sets the operation point of the back light OFF when there is no

button control.

③ LCD brightness is controlled with

☞ The buzzer sound which is created in DI error is not OFF even though it is set in non-use.

④ The user tag name can be set.

☞ Maximum 6 digits can be set and the set tag shall be displayed on the operation screen. ☞ Refer to [Fig. 7-2 User tag name setting screen] ☞ The pen name of graph pen related parameter setting is changed. (In case of sub channel of pen

selection.)

Refer to [Fig. 6-9 Graph & Save setting the 4

⑤ It moves to the next or previous screen.

[Fig. 7-1] Screen display setting the 1

button.

screen-2]

screen

④ ⑤

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▶ It is a screen to set the user tag name.

[그림 7-2] Setting of user tag name screen

표 7-1. Display set the 1

parameter

Parameter Setting range Unit Initial data

Buzzer sound Non-use, Use ABS Use

Power saving operation time 0 ~ 99 MIN ABS 10

LED brightness 1 ~ 8 ABS 8 column

User tag Non-use, Use ABS Non-use

Tag name

0~9, A~Z, special character

(Maximum 6 characters)

ABS SUB CH#n

* n = 1 ~ 6

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7.2 DI error occurrence history view

▶ It is a screen to display the DI type, date and time where the error is created. ▶ Maximum 30 error history is displayed.

☞ The earliest numbers out of the displayed errors are deleted when more than 30 errors are created and

the created errors are added at the end.

②

①

① The history is display in case of DI error creation.

☞ The name set in [19.2 DI error name] is displayed.

☞ The change is impossible as it is only for reading.

② It deletes entire DI error creation history. ③ It checks the next or previous error history.

Table 7-2. Display set the 2

Parameter Setting range Unit Initial data

Entire deletion Non-use, Use ABS Non-use

[Fig. 7-3] DI error creation history screen

screen parameter

③

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▶ It is a screen for DI error creation. ▶ The character and photo screen setting can be made in [19. DI function and operation setting]. ▶ When (Recovery) button is pressed, it is converted to the operation screen by escaping from DI

error screen.

☞ The same error creation is neglected for 1 minute when it is escaped from the screen through the DI

(Recovery) button after DI creation. Ex) When it is escaped with “Recovery” during DI1 creation, the DI1 creation is neglected for 1 minute and DI error screen is displayed when DI1 creation state after 1 minute.

※ The neglect ion here means the DI error screen.

▶

(Buzzer blocking) button is button to block the warning sound during DI error creation.

Ex) Explanation on the lamp state

※ DI related lamp is ON in DI related error creation. ( ※ DI related lamp is OFF after DI error creation. (

(Character), (Photo))

[Fig. 7-4] Screen of DI when error is displayed in letter

[Fig. 7-5] Screen of DI when error is displayed in photo

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7.3 Heater disconnection state

▶ It is a screen to display the heater disconnection creation.

① ②

③

① When the heater is disconnected which is connected to the main and sub channel, it is changed

into

② It is the name of main and sub channel. ③ It displays the current data on the heater. ④ It moves to the next or previous screen.

표 7-3 Display set the 2

Parameter Setting range Unit Initial data

[Fig. 7-4] Heater disconnection state creation

screen parameter

④

Heater disconnection warning A ~ Z, 1~ 9 ABS -

Heater disconnection electric

current display

- ABS -

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8. Time setting

▶ It is a screen to set the current time and operation appointment time.

③

①

②

① It sets the year, month, day and time.

☞ The present time cannot be changed during the recording of the measured data and operation.

② It sets the year, month, day and time for appointed operation. ③ When

☞ When

as in the [Fig. 8-2 Operation appointment setting screen].

(Appointment) button is pressed, the operation is started at the appointed time.

(Appointment) button is pressed, the appointed time is displayed on the operation screen

[Fig. 8-1] Time setting screen

[Fig. 8-2] Operation appointment setting screen

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Table 8-1. Appointment operation setting parameter

Parameter Setting range Unit Initial data

Year 2000~2099 ABS -

Month 1~12 ABS -

Present time

AM/PM AM, PM ABS -

Minute 0~59 ABS -

Month 1~12 ABS 8

Appointed

operation

time

Appointment Click for appointment

* AM12:00 : AM 00:00 * PM12:00 : PM 12:00

AM/PM AM, PM ABS AM

Minute 0~59 ABS 0

Day 1~31 ABS -

Hour 1~12 ABS -

Year 2000~2099 ABS 2011

Day 1~31 ABS 1

Hour 1~12 ABS 12

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9. Communication error

▶ When communication between display and control unit is wrong, the message like the “Control part

was disconnected” is displayed in [Fig. 9-1 Control Unit Communication error screen].

▶ When communication between display and I/O board communication is wrong, the message like “I/O

board was disconnected” is displayed in in [Fig. 9-2 I/O board Communication error screen].

※ No communication situation

① Communication cable defect ② No connection of communication cable

[Fig. 9-1] Control unit communication error screen

[Fig. 9-2] I/O Board communication error screen

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10. System setting

10.1 Main screen

▶ The basic screen is as follows.

①

②

▶ When ① and ② in [Fig. 10-1 Main screen] are pressed in sequence, the screen [Fig. 10-2 Password

input screen] is displayed.

▶ When the password is input in [Fig. 10-2 Password input screen], it is converted to [Fig. 10-3 System

parameter setting screen]. ☞ The password is set in ‘0’ when it is outgoing from factory. ☞ Set the password in [21. System initial setting] when there is a necessity to block the access of the

general user.

[Fig. 10-1] Main screen

[Fig. 10-2] Password input screen

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▶ The system parameter setting screen is as follows.

[Fig. 10-3] System parameter setting screen

SYMBOL Item Function Remarks

Input set

Parameter setting related with input sensor type and

sensor input

Output set Parameter setting related with output type and output

Inner signal Parameter setting related with inner signal

ON/OFF signal Parameter setting related with ON/OFF signal

Alarm & HBA

Parameter setting related with alarm signal and heater

disconnection

PID group Parameter setting related with PID

Communication Parameter setting related with communication

DO config

DI config

Parameter setting related with I/O board relay output

signal

Parameter setting related with outside contact input

signal

Pictures view Parameter setting related with user BMP setting screen

Initial set

Parameter setting related with basic setting related with

screen configuration

Refer to

Channel change

[Fig. 22-1 Sub channel parameter setting screen] with

setting the system parameter in main or sub channel.

☞ The wrong operation can be created when the setting data is changed into the wrong data inside the

system setting screen.

☞ User screen setting: It is activated with SD card option and inactivated without option.

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10.2 System parameter setting procedure

▶ The system parameter setting procedures which shall be preferentially treated in product installation are

as follows.

Setting

sequence

SYMBOL Item Function Remarks

① Temperature sensor type setting

Input set

Output set

② Sensor use scope setting ③ Other parameter setting ① Output type setting ② Output direction setting ③ Other parameter setting

PAGE 88

PAGE 96

DO config DO CONFIG Parameter setting PAGE 105

Communication Parameter setting PAGE 115

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11. Sensor input

11.1 Sensor input setting

11.1.1 Sensor input the 1st screen

▶ Temperature (T/C, RTD, DCV) sensor is selected.

☞ The sensor setting shall be set at first certainly.

⑤

①

⑥ ⑦

②

⑧ ⑨

③

⑩

④

⑪

[Fig. 11-1] Input sensor setting the 1

screen (In case of T/C setting.)

① It sets the input sensor.

☞ Parameter for the unit described with EU and EUS shall be changed proportionally with the current

data in case of sensor change. However, the upper·lower range setting data is initialized.

☞ It cannot be changed during operation. .

② It determines the type of input sensor.

☞ The setting screen is displayed [Fig. 11-2 Sensor type setting screen (In case of T/C setting.)]. ☞ Refer to [Table 11-1. Sensor input setting the 1

screen parameter].

③ It set the display unit.

☞ The setting screen is displayed like [Fig. 11-3 Display unit setting screen (In case of T/C setting.)]. ☞ Refer to [Table 11-1. Sensor input setting the 1

screen parameter]

④ It sets the use/non-use of thermocouple.

☞ It selects the use/non-use of RJC when the sensory type is T/C.

⑤ It moves to [Fig. 10-1 Main screen]. ⑥ It sets the scope of use for the set sensor.

☞ The parameter related with EU and EUS such as auto tuning and alarm can be changed in its

operation point and setting data at the changes of the Lower limit range (RL) and Upper limit range (RH).

☞ Refer to [Table 11-1. Sensor input setting the

1st

screen parameter]

⑦ It moves from present screen to the next screen. ⑧ Input calibration (BIAS function)

☞ It calibrates the temperature input deviation.

⑨ Sensor filter

☞ It sets the sensor filter time when the high frequency noise is included into input signal. ⑩ The operation direction for the PV (Present Value) is set in case of sensor disconnection. ⑪ It moves to [Fig. 10-3 System parameter setting screen].

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[Fig. 11-2] Sensor type setting screen (In case of T/C setting)

[Fig. 11-3] Display unit setting screen (In case of T/C, RTD setting)

▶ When the temperature sensor is set in RTD, the following screen is displayed.)

[Fig. 11-4] Sensor input setting the 1

screen (In case of RTD setting.)

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▶ One of the 6 sensor types can be selected.

[Fig. 11-5] Sensor type setting screen (In case of RTD setting.)

▶ When the temperature sensor is set in DCV, the following screen is displayed.

①

[Fig. 11-6] Sensor input setting the 1

screen (In case of DVC setting.)

① It sets the digit under the decimal point.

☞ Refer to [Fig. 11-9 Decimal point setting screen].

② It sets the scope of use for the voltage input sensor. ③ SCALE upper limit·lower limit: It sets the display scale for the input voltage.

②

③

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▶ One of five sensor types can be selected.

▶ One of 12 units can be selected and used.

[Fig. 11-7] Sensor type setting screen (In case of DCV setting.)

[Fig. 11-8] Display unit setting screen (In case of DCV setting.)

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▶ It is a screen to select the place of decimal point.

Table 11-1. Sensor input setting the 1

[Fig. 11-9] Decimal point setting screen (In case of DCV setting)

screen parameter

Parameter Setting range Unit Initial data

Sensor group T/C, RTD, DCV ABS T/C

TC-K1, TC-K2, TC-J, TC-E,

TC-K2

PT A

0.4~2.0V

Sensor type

TC-T, TC-R, TC-B, TC-S, TC-L,

TC-N, TC-U, TC-W, TC-PLA,

TC-C

PT A, PT B, PT C, PT D,

JPT A, JPT B

0.4~2.0V, 1~5V, 0~10V,

-1~20MV, 0~100MV

ABS

(When sensor group is T/C.)

(When sensor group is RTD.)

(When sensor group is DCV.)

℃, ℉ ABS ℃

Display unit

Decimal point 0 ~ 3 ABS

Thermocouple display T/C, TC+RJC, RJC ABS

Upper limit range EU EU(100.0%)

℃, ℉, SPACE, %, Pa, kPa, %RH,

mV, V, Ω, Torr, Kgf

EU(0.0 ~ 100.0%)

ABS

(When sensor group is DCV.)

(When sensor group is T/C.)

℃

TC+RJC

Lower limit range < Upper limit

Lower limit range

range

EU EU(0.0%)

Input calibration EUS (-100.0 ~ 100.0%) EUS EUS(0.0%)

Sensor filter 0 ~ 120 SEC 초 0

SCALE upper limit ℃

-199.9 ~ 3000.0℃

SCALE lower limit < SCALE upper

SCALE lower limit

limit

℃

(When sensor group is DCV.)

100.0

0.0

* The upper limit/lower limit for the sensor group, sensor type, upper limit.lower limit of the scope, display unit scale upper limit/lower limit cannot be changed during operation.

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11.1.2 Sensor input the 2nd screen

▶ It calibrates the temperature range input. ▶ The range calibration is applied in the form of the equation of the first between the calibration points.

①

② ③

① It sets the input calibration of the temperature. ② It sets the temperature at each basic point for temperature calibration. ③ It sets the calibration temperature at each basic temperature. ④ It displays the input calibration adopted temperature.

☞ The change by touching is impossible as it is only for reading.

Table 11-2. Sensor input parameter calibration screen for each range

Parameter Setting range Unit Initial data Input calibration 1 data Input calibration 2 data Input calibration 3 data Input calibration 4 data Input calibration 5 data Input calibration 6 data Input calibration 7 data Input calibration 8 data

Input calibration 1 point Input calibration 2 point Input calibration 3 point Input calibration 4 point Input calibration 5 point Input calibration 6 point Input calibration 7 point Input calibration 8 point

[Fig. 11-10] Sensor input calibration screen for each range

EUS(-10.0 ~ 10.0%) EUS EUS(0.0%)

EU(0.0 ~ 100.0%)

PV of Lower limit range ≤ PV of Input calibration1 point ≤ PV of Input calibration2 point ≤ PV of Input calibration3 point ≤ PV of Input calibration4 point ≤ PV of Input calibration5 point ≤ PV of Input calibration6 point ≤ PV of Input calibration7 point ≤ PV of Input calibration8 point

≤ PV of Upper limit range

④

EU(0.0%)

EU(100.0%)

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INR

11.3 PIECE BIAS setting

▶ It displays Section Input Compensation. ▶ It explains for CH1, and CH2 is same as CH1.

Sensor measurements After calibration, the current indicated value

⑧

⑦

⑤

④

①

Input Comp.

Point 1

②

Input Comp.

Point 2

③

Input Comp.

Point 3

Input Comp.

Point 4

Input Comp.

Point 5

Input Comp.

Point 6

▶ Calculation method by Compensation Section

① Compensated Temperature between Low Limit ~ Input Comp. Point 1 Section

= Actual Sensor Temperature + Input Comp. 1 Value

② Compensated Temperature between Input Comp. 1 ~ Input Comp. 2 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 1) X

(Input Comp. 2 Value – Input Comp. 1 Value)

(Input Comp. Point 2 – Input Comp. Point 1)

③ Compensated Temperature between Input Comp. 2 ~ Input Comp. 3 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 2) X

(Input Comp. 3 Value – Input Comp. 2 Value)

+ Input Comp. 2 Value

(Input Comp. Point 3 – Input Comp. Point 2)

④ Compensated Temperature between Input Comp. 3 ~ Input Comp. 4 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 3) X

(Input Comp. 4 Value – Input Comp. 3 Value)

+ Input Comp. 3 Value

(Input Comp. Point 4 – Input Comp. Point 3)

⑥

Input Comp.

Point 7

Input Comp.

Point 8

+ Input Comp. 1 Value

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⑤ Compensated Temperature between Input Comp. 4 ~ Input Comp. 5 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 4) X

⑥ Compensated Temperature between Input Comp. 5 ~ Input Comp. 6 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 5) X

⑦ Compensated Temperature between Input Comp. 6 ~ Input Comp. 7 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 6) X

⑧ Compensated Temperature between Input Comp. 7 ~ Input Comp. 8 Section

= Actual Sensor Temperature + (Actual Sensor Temperature – Input Comp. Point 7) X

⑨ Compensated Temperature between Input Comp. Point 8 ~ High Limit Section

= Actual Sensor Temperature + Input Comp. 8 Value

(Input Comp. 5 Value – Input Comp. 4 Value)

+ Input Comp. 4 Value

(Input Comp. Point 5 – Input Comp. Point 4)

(Input Comp. 6 Value – Input Comp. 5 Value)

+ Input Comp. 5 Value

(Input Comp. Point 6– Input Comp. Point 5)

(Input Comp. 7 Value – Input Comp. 6 Value)

+ Input Comp. 6 Value

(Input Comp. Point 7– Input Comp. Point 6)

(Input Comp. 8 Value – Input Comp. 7 Value)

+ Input Comp. 7 Value

(Input Comp. Point 8– Input Comp. Point 7)

2nd Edition of TEMP2000M_Series IM : April. 8. 2014 Page 95 / 176

Page 100

SAMWONTECH

12. Control & Transmitting output

12.1 Control output setting

12.1.1 Output setting the 1st screen

▶ It sets the output type for temperature control.

①

②

① It sets the output type of the OUT1 output terminal.

☞ In case of SSR, it is displayed like [Fig. 12-3 SSR Output terminal setting screen].

② It sets the output type of OUT2 output terminal.

☞ In case of SCR, it is displayed like [Fig. 12-4 SCR Output terminal and transmitting output terminal

setting screen].

③ It moves the screen to the next or before. ④ The page moves up/down from the present screen.

[Fig. 12-1] Control output setting the 1

screen

③

④

2nd Edition of TEMP2000M_Series IM : April. 8. 2014 Page 96 / 176

Samwon Tech Temp 2000 M, 3ch, 5ch, 7ch Instruction Manual

Specifications and Main Features

Frequently Asked Questions

User Manual